The purpose of the present invention is to improve visibility of a status display unit while simplifying the installation of the status display unit and preventing damage to the status display unit. The present invention comprises: a work vehicle body capable of traveling automatically; a status detection unit that detects the status of the work vehicle body; and status display units that show a status display according to the status of the work vehicle body detected by the status detection unit. At least one pair of status display units are arranged diagonally across the work vehicle body in plan view.

A display device for displaying at least one of outputs related to traveling of a hybrid vehicle includes a first area that indicates a first output in a first mode and indicates a second output in a second mode, a second area provided side by side with the first area and that indicates a third output in the second mode, and a third area provided in a position adjacent to the second area, and that indicates a range of the first output where a possibility that the internal combustion engine starts is high. The first area has a first display portion that changes according to the first output in the first mode and the second output in the second mode. The second area has a second display portion that changes according to the third output in the second mode.

The invention relates to a cab for a heavy-duty vehicle, such as a bus or truck, whereby at least three display screens are arranged inside the cab, each display screen having a display function, so that at least three different images, containing information for the driver, can be displayed, wherein all the screens are connected to one and the same communication network so that any signal can be transmitted through the network to the display screens and, accordingly, the display function of each screen can be modified.

A method for operating an electric charging device for an electrically drivable motor vehicle. The electric charging device has a ground unit for positioning in the ground and for generating an alternating magnetic field for an electric charging operation. The method includes sensing a motor vehicle within a predefined perimeter surrounding the ground unit; sensing a driving parameter value of at least one driving parameter of the sensed motor vehicle at at least one respective predefinable point in time; storing the at least one driving parameter value if an electric charging operation is carried out for the detected motor vehicle; determining a driving recommendation on the basis of the at least one sensed and stored driving parameter value; and transmitting the driving recommendation if another motor vehicle is sensed within the predefined perimeter surrounding the ground unit.

A vehicle and control method thereof at provided to automatically activate preset devices within a vehicle based on a preset user selection function. The method vehicle includes receiving a selection of at least one user selection function preset in the vehicle and determining at least one vehicle environment associated with the user selection function in response to the selection of the at least one user selection function. Device control of the vehicle is performed related to the driving route setting of the vehicle or the at least one vehicle environment to support the at least one vehicle environment.

An information provision system mounted on a vehicle includes: a visual device configured to visually provide information to an occupant of the vehicle; and a controller configured to control the visual device. The controller is further configured to: cause the visual device to provide first information in a first period; cause the visual device to provide second information different from the first information in a second period later than the first period; and set at least one of a luminance and a saturation of the visual device in at least a part of an information switching period between the first period and the the second period to be lower than that in the first period and the second period.

A method for selecting an operating mode for a vehicle which has at least two operating modes. Graphics data of a graphic user interface are generated and output, wherein the graphic user interface includes a background display and at least two selectable control buttons, wherein the control buttons are each assigned to an operating mode of the vehicle. A selection of a control button is detected, and a control signal is generated and transmitted to a control device of the vehicle as a function of the operating mode assigned to the selected control button. The background display includes a display of a vehicle surface, wherein the displayed vehicle surface is formed as a function of the operating mode which is selected at the current time. Also disclosed is a system for selecting an operating mode for a vehicle.

A vehicle drive mode selection system selects a preset drive mode for a vehicle when sensors on the vehicle’s steering wheel are triggered. Upon triggering of the sensors on the steering wheel, a drive mode selector of the vehicle is configured to switch a current drive mode of the vehicle to the preset drive mode.

A cleaning device for a surface, such as a windshield of a vehicle, includes an active positioning system and a cleaning head. The active positioning system is configured to deploy from a storage position hidden from view within a covered storage space and to position the cleaning head upon the windshield. The active positioning system includes a first extension member and a second extension member that move relative to one another to position the cleaning head, and also move the cleaning head across the windshield along a path. The cleaning head can have a brush portion configured to agitate debris from the window, and a drying portion configured to dry the window after cleaning. The cleaning device can be controlled via a touch-screen display in the vehicle, enabling a user to direct that specific portions of the windshield be cleaned as desired.

In a vehicle in which a traffic congestion autonomous driving operation and a driver required driving operation are executable, a display relating to a driving operation exchange from the traffic congestion autonomous driving operation to the driver required driving operation is performed when a switching from the traffic congestion autonomous driving operation to the driver required driving operation is requested, a situation of the vehicle is specified such that the switching from the traffic congestion autonomous driving operation to the driver required driving operation is requested, and at least one of a timing of the display and a content of the display relating to the driving operation exchange is changed according to the situation.